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Sinking Organic Particles in the Ocean—Flux Estimates From in situ Optical Devices

Sarah L. C. Giering, Emma L. Cavan, Sünnje L. Basedow, Nathan Briggs, Adrian Burd, Louise Darroch, Lionel Guidi, Jean‐Olivier Irisson, Morten Hvitfeldt Iversen, Rainer Kiko, Dhugal J. Lindsay, Catarina R. Marcolin, Andrew M. P. McDonnell, Klas Ove Möller, Uta Passow, Sandy Thomalla, Thomas W. Trull, Anya M. Waite

2020Frontiers in Marine Science146 citationsDOIOpen Access PDF

Abstract

Optical particle measurements are emerging as an important technique for understanding the ocean carbon cycle, including contributions to estimates of their downward flux, which sequesters CO2 in the deep sea. Optical instruments can be used from ships or installed on autonomous platforms, delivering much greater spatial and temporal coverage of particles in the mesopelagic zone of the ocean than traditional techniques, such as sediment traps. Technologies to image particles have advanced greatly over the last two decades, but the quantitative translation of these immense datasets into biogeochemical properties remains a challenge. In particular, advances are needed to enable the optimal translation of imaged objects into carbon contents and sinking velocities. In addition, different devices often measure different optical properties, leading to difficulties in comparing results. Here we provide a practical overview of the challenges and potential of using these instruments, as a step towards improvement and expansion of their applications.

Topics & Concepts

Mesopelagic zoneBiogeochemical cycleDeep seaFlux (metallurgy)Environmental scienceOceanographyCarbon cycleRemote sensingOptical imagingCarbon fluxComputer scienceGeologyPelagic zoneMaterials scienceEcosystemOpticsPhysicsChemistryEcologyEnvironmental chemistryMetallurgyBiologyMarine and coastal ecosystemsOceanographic and Atmospheric ProcessesOcean Acidification Effects and Responses
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